2014
DOI: 10.1175/jhm-d-13-031.1
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An Experimental Study of Spatial Variability of Rainfall

Abstract: Spatial variability of rainfall was studied through a gauge network on the Delmarva Peninsula. The gauge network consists of 11 dual- or triple-tipping-bucket sites ranging from 1- to 150-km separation distances. The time of the tip (0.254 mm) was recorded to a datalogger, and a continuous dataset was available from all sites for over 5 yr (May 2005–July 2010). A three-parameter exponential function was fitted to the paired correlations and the resultant correlation distance was 8–13 km during summer and 51–85… Show more

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Cited by 27 publications
(27 citation statements)
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“…Even though the basins are very small, large spatial differences of rainfall exist due to localized heavy rainfall. These results are in general agreement with previous experimental studies for the spatial variability of rainfall [38][39][40]. …”
Section: Cross Validation Of Quantitative Precipitation Estimatessupporting
confidence: 93%
“…Even though the basins are very small, large spatial differences of rainfall exist due to localized heavy rainfall. These results are in general agreement with previous experimental studies for the spatial variability of rainfall [38][39][40]. …”
Section: Cross Validation Of Quantitative Precipitation Estimatessupporting
confidence: 93%
“…These differences may be partially related to the enhanced spatial variability of unorganized convective activity that is more dominant over warmer months (Tokay et al 2014). This is particularly true for coastal areas (Kingston) or in the Southeast, where daytime convection 712 could trigger afternoon pop-up thundershowers.…”
Section: B Precipitationmentioning
confidence: 99%
“…The complexity in small-scale variability of rainfall increases in hilly terrain (Zängl, 2007;Li et al, 2014). The rainfall often becomes inhomogeneous due to topographic influence and is at times highly localized, resulting in large errors in the retrieved precipitation by passive/active remote sensors due to non-uniform beam-filling of precipitation within the satellite or radar pixel (Tokay and Ozturk, 2012). In order to understand the physical processes responsible for such variability, several studies examined the dependency of rainfall spatial variability (in terms of correlation distance, d o ) on rainfall regimes (Krajewski et al, 2003), seasons, spatial and temporal aggregation of data (Krajewski et al, 2003;Villarini et al, 2008;Luini and Capsoni, 2012;Chen et al, 2015;Prat and Nelson, 2015), sample size and extreme rain events (Habib et al, 2001) and geographical features like topography (Li et al, 2014).…”
mentioning
confidence: 99%